Your search keyword '"Sushentseva, Natalya N."' showing total 2 results

1. Changes in the Repertoire of tRNA-Derived Fragments in Different Blood Cell Populations.

Author

Artamonov, Alexander A., Kondratov, Kirill A., Bystritsky, Egor A., Nikitin, Yuri V., Velmiskina, Anastasiya A., Mosenko, Sergey V., Polkovnikova, Irina A., Asinovskaya, Anna Yu., Apalko, Svetlana V., Sushentseva, Natalya N., Ivanov, Andrey M., and Scherbak, Sergey G.

Subjects

BLOOD cells, COVID-19, CELL populations, CYTOKINE release syndrome, EOSINOPHILS

Abstract

tRNA-derived fragments function as markers in addition to playing the key role of signalling molecules in a number of disorders. It is known that the repertoire of these molecules differs greatly in different cell types and varies depending on the physiological condition. The aim of our research was to compare the pattern of tRF expression in the main blood cell types and to determine how the composition of these molecules changes during COVID-19-induced cytokine storms. Erythrocytes, monocytes, lymphocytes, neutrophils, basophils and eosinophils from control donors and patients with severe COVID-19 were obtained by fluorescence sorting. We extracted RNA from FACS-sorted cells and performed NGS of short RNAs. The composition of tRNA-derived fragments was analysed by applying a semi-custom bioinformatic pipeline. In this study, we assessed the length and type distribution of tRFs and reported the 150 most prevalent tRF sequences across all cell types. Additionally, we demonstrated a significant (p < 0.05, fold change >16) change in the pattern of tRFs in erythrocytes (21 downregulated, 12 upregulated), monocytes (53 downregulated, 38 upregulated) and lymphocytes (49 upregulated) in patients with severe COVID-19. Thus, different blood cell types exhibit a significant variety of tRFs and react to the cytokine storm by dramatically changing their differential expression patterns. We suppose that the observed phenomenon occurs due to the regulation of nucleotide modifications and alterations in activity of various Rnases. [ABSTRACT FROM AUTHOR]

Published

2024

2. SARS-CoV-2 Impact on Red Blood Cell Morphology.

Author

Kondratov, Kirill A., Artamonov, Alexander A., Mikhailovskii, Vladimir Yu., Velmiskina, Anastasiya A., Mosenko, Sergey V., Grigoryev, Evgeniy A., Anisenkova, Anna Yu., Nikitin, Yuri V., Apalko, Svetlana V., Sushentseva, Natalya N., Ivanov, Andrey M., and Scherbak, Sergey G.

Subjects

ERYTHROCYTES, CELL morphology, SARS-CoV-2, COVID-19 pandemic, COVID-19

Abstract

Severe COVID-19 alters the biochemical and morphological characteristics of blood cells in a wide variety of ways. To date, however, the vast majority of research has been devoted to the study of leukocytes, while erythrocyte morphological changes have received significantly less attention. The aim of this research was to identify erythrocyte morphology abnormalities that occur in COVID-19, compare the number of different poikilocyte types, and measure erythrocyte sizes to provide data on size dispersion. Red blood cells obtained from 6 control donors (800–2200 cells per donor) and 5 COVID-19 patients (800–1900 cells per patient) were examined using low-voltage scanning electron microscopy. We did not discover any forms of erythrocyte morphology abnormalities that would be specific to COVID-19. Among COVID-19 patients, we observed an increase in the number of acanthocytes (p = 0.01) and a decrease in the number of spherocytes (p = 0.03). In addition, our research demonstrates that COVID-19 causes an increase in the median (p = 0.004) and interquartile range (p = 0.009) when assessing erythrocyte size. The limitation of our study is a small number of participants. [ABSTRACT FROM AUTHOR]

Published

2023